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Construction Manual
March 2019
Sustainablity Contents NiuBridgeWhat is NiuBridge? 01
Preservation Treatment 02
Manufacturing Standards 02
Design Standards 02
NiuDeckDimensions 03
Manufacturing Specification 03
Characteristic Properties Bending 03
Characteristic Properties Shear 03
Deflection 04
Standard Thickness 04
Typical Thickness Required 04
Installation of NiuDeck products 05
Skew Decks 05
EcoModularKey Features 06
Delivery 07
Typical Drawings 08 - 9
HPF ModularKey Features 10
Attributes Table 11
Delivery & Installation 12
Camber 13
Typical Drawings 14 - 15
SHPF ModularSHPF Modular 16
Dimensions Table 17
Typica Drawings 18
Ordering Niu Bridge process 19
Deck Wearing Surface 20
NiuKerbNiuKerb 21
EWPPA Certificates 22
Exhibit of Works 23
Engineered Wood Products Association of AustralasiaPNGFP are certified by the Engineered Wood Products Association of Australasia (EWPAA) and carry the EWPAA JAS-ANZ branding. This means any product branded with the EWPAA JAS-ANZ brand has been manufactured under an accredited third party audited, process based quality control program, that ensures the product meets the intended designed criteria. PNGFP are also PEFC certfied (Programme fo rthe Endorsement of Forest Certification) the worlds leading forest certification organisation. An international non-profit, non-Government oranisation dedicated to promoting sustainable forest management.
Performance Testing
PNGFP NiuBridge has undergone comprehensive structural testing of full scale specimens at the University of Technology Sydney. The test results confirm that NiuBridge meets and exceeds the ULS requirements of both T44 and S1600 loading conditions.
What is the NiuBridge System?01 Purpose & Standards 02
/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
NiuBridge System
The NiuBridge System is a comprehensive Engineered Wood Product bridge building system that is a cost-effective solution for refurbishment of existing structures as well as new bridge construction.
The system exploits the structural advantages of sustainable plantation resource manufactured under the controls of a Type 5 ISO 17065 JAS-ANZ product certification scheme.
The NiuBridge system comprises: -
NiuDeck: Heavy Duty Plywood Decking System
ECO Modular System: Cost effective single and dual lane modular system ideally suited to temporary installations with single spans up to 10m
HPF Modular System: Lightweight high performing modular system for single spans up to 15m
SHPF Modular System: Readily transportable high performing system for longer spans up to 24m
NiuKerb: Prefinished Plywood Kerbing system
The NiuBridge modular bridge system is a light weight system for all spans up to 24m. NiuBridge is suitable for installation on a variety of existing substructures, including timber, heritage masonry, steel and concrete. NiuBridge is also ideally suitable for installation on precast spread footing abutment systems as well as the conventional piles and abutments.
Whether installed onto existing or new substructures NiuBridge Modular is the ideal cost-effective solution with fast and simple installation:
NiuBridge is a flexible system that can incorporate site specific requirements without compromising the systems integrity.
Fully protected from rotting and termites NiuBridge has a design life of 50 years.
Advantages:
Light weight Minimal crane size required. Option of a pre-applied bituminous deck
wearing surface on modules Significantly reduced installation time Compliant to Austroads T44 and AS5100
S1600 loading Flexible design options and custom design
service Reliable engineering properties Sustainable plantation resource (PEFC Chain of Custody) Alkaline Copper Quaternary (ACQ) H4 “Veneer Treatment” preservation.
Page 3 of 25
Purpose The purpose of this construction manual is to provide guidance on specifications and construction requirements for installation of all elements of the NiuBridge system.
This document is of a general nature and should be read in conjunction with the detailed “project specific” documents including, but not limited to, Drawings, Contracts, Project Specifications and Safe Work Method Statements.
Typical installation arrangements that are contained in the NiuBridge standard drawings do not constitute site specific site layout drawings; these drawings need to be provided by the consulting engineer for the project. Any differences between the site specific documentation and this guide need to be referred by the relevant authorised personnel to a PNGFP representative.
Preservation Treatment NiuBridge utilizes the veneer preservation treatment method to ensure complete protection from termites and fungal decay (rotting). Veneer treatment is the only way to ensure complete penetration and that any unsealed cut panels will not decay.
Veneer treatment method is where the individual sheets of veneer are preservative treated before being fabricated into plywood to ensure 100% penetration. The treated veneers are then bonded with a permanent phenolic resin which is often referred to as “A” bond or Marine “A” or Structural bond.
Structural “A” bonds require rigorous testing after submersion in boiling water for 72 hours or 6 hours under high pressure steam to ensure a high quality bond.
Manufacturing Standards AS/NZS 2269:2012; Plywood – Structural AS/NZS 4357:2005 – Structural Laminated Veneer Lumber AS/NZS 1604.1:2012; Specification for preservative treatment Part 1: Sawn and
Round Timber AS/NZS 1604.3:2012; Specification for preservative treatment Part 3: Plywood AS/NZS 1604.4:2012; Specification for preservative treatment Part 4: Laminated
veneer lumber (LVL).
Design Standards AS 1720.1 Timber structures – Part 1: Design Methods, Section 5 Plywood AS 5100:2004; Bridge Design 92 Austroads Bridge Design Code.
03 What is NiuDeck? What is NiuDeck?04
Page 4 of 25
NiuDeck
NiuDeck is a purpose designed and engineered heavy plywood decking system which is primarily used for re-decking traditional timber road bridges but can also be used with a variety of supporting structures. NiuDeck can also be used in wharf and rail deck applications.
Manufactured using a proven durable glue system together with 100% “veneer” preservation treatment method the product is well designed for adverse climatic conditions of bridge applications ensuring a long design life.
Developed as a renewable alternative to traditional hardwood sawn timber, NiuDeck is manufactured from sustainable plantation pine using hydro-electric power to the highest quality standards.
Available in a range of thicknesses NiuDeck offers the engineer a cost-effective solution for a wide variety of applications which comply with either, Austroads Bridge Design Code or Australian standard AS5100 Bridge Design. In addition, a custom design service is available to handle the most challenging applications.
Dimensions: Variable length up to 11.9m Standard lengths of 5.4m, 7.0m, 8.7m Standard width 1200mm Non-standard widths from 900 to 3600mm Standards thicknesses from 56mm to 198mm
(thicker on request).
Manufacturing Specification: “A” Bond (AS/NZS2269) Veneer grade “C” and “D” (AS/NZS2269) Preservation treatment to Hazard Class H4
(AS/NZS 1604.3) by veneer treatment method Density of approximately 600 Kg/m3 when shipped Moisture content between 8 to 15% when shipped.
Characteristic Properties Bending: Stress Grade (parallel/perpendicular) : F14/F14 Bending strength (f’b) (parallel/perpendicular) : 36MPa/36MPa Moisture factor (AS1720.1) k19 : 0.8 Assembly factor (AS1720.1) g19 : 1.0
Characteristic Properties Shear: Stress Grade (parallel/perpendicular) : F14/F14 Bending strength (f’s) (parallel/perpendicular) : 4.8MPa/4.8MPa
Page 5 of 24
Deflection: Reduction factor ke is adopted to allow for significant shear deflections due to a low
shear modulus and span to depth rations of less than 10:1. ke : 0.75
Standard Thickness Section Properties1:
Thickness (mm)
I longit x10^6 mm^4
Z longit x10^3 mm^4
I trans x 10^6 mm^4
Z trans x 10^3 mm^4
56 8.6 303 6.3 216
84 28.4 663 22 505
112 66.8 1168 52.8 908
140 129.9 1816 103.6 1427
150 166.9 2143 134.6 1703
155 188.05 2319 151.8 1847
167 223.4 2609 179.6 2062
195 355.1 3546 285.6 2811 1For one meter wide
Typical Thicknesses Required: Parameter 1300mm Maximum
Girder Spacing 1600mm Maximum
Girder Spacing Clear Span (mm) 1150mm 1450mm Thickness for 80 kN wheel load to AS 5100 Bridge Design
150mm 155mm
Maximum Cantilever for 80kN wheel load
450mm 500mm
Thickness for 70kN wheel load to 92 Austroads Bridge Design Code
140mm 150mm
Maximum Cantilever for 70kN wheel load to 92 Austroads Bridge Code (mm)
450mm 500mm
Assumptions:
Maximum cantilever is measured from the inside of the kerb to the girder centreline. Panels are laid perpendicular to girder (zero degrees skew). For AS5100 designs the critical live load is assumed to be W80 wheel load. Wheel load patch size is 200x500mm. Deck is assumed to have at least 3 continuous spans.
Limitations:
The above design values are indicative only. Specific bridge decks must be designed and certified by an appropriately qualified and registered engineer to suit the applicable loads and conditions.
05 NiuDeck Installation What is Eco Modular?
Page 8 of 22
ECO Modular
The NiuBridge ECO modular bridge system is a robust cost effective system for all single spans up to 10m. NiuBridge ECO is suitable for installation on almost all substructures, including temporary installations direct on the ground. NiuBridge ECO is also ideally suitable for installation on precast spread footing abutment systems as well as the conventional piles and abutments.
Key features:
Single span length up to 10m Compliant to T44 and AS5100 S1600 loading Standard single lane width 4200mm Standard double lane width 8400mm Non-standard lengths and widths available on request.
Figure 1: Typical single lane deck and girder cross section
Table 1: Single Lane Attributes Table
Span (m)
Overall Lane Width Inside
Kerbs (m)
Overall Lane Width
Outside Kerbs (m)
Module Width (m)
Deck Thickness
(mm)
Girder Depth (mm)
Kerb Width (mm)
Kerb Depth (mm)
Approximate Module Weight (tonne)
6 3.8 4.2 2.1 112 300 200 216 3.17 3.8 4.2 2.1 112 300 200 216 3.68 3.8 4.2 2.1 112 300 200 216 4.19 3.8 4.2 2.1 112 416 200 216 6.510 3.8 4.2 2.1 112 416 200 216 7.3
06
Page 6 of 24
Skew Decks The above section properties are applicable when the NiuDeck panels are laid perpendicular to the girders. Skew decks are where the panels are laid at an angle other than perpendicular.
Installation To ensure correct installation of the product we recommend the following instructions be strictly adhered to:
Supporting structure needs to be sound prior to installation of NiuDeck.
Changing the thickness or width of the NiuDeck product from the approved design during the installation process is not allowed unless a variation to the design is obtained and signed off by the design engineer.
Docking to length of both NiuDeck during the installation process is allowed however any saw cut done by hand, chain saw or circular saw needs to be a minimum distance of 25mm from any visible screws. If screws cannot be located, then it is recommended to cut the NiuDeck with a concrete saw.
NiuDeck needs to be fixed at each girder with a minimum of 2 bolts (one per side). M24 is recommended for extra longevity with a minimum100x100x16mm washer.
Alternative fixing of panels to girder can be done by prefabricated steel straps
Panels with widths of between 900mm and 1200mm are to be located in the centre of the deck with at least 3 x 1200mm panel widths away from the abutments.
Ensure deck panels are evenly supported by the girders. Coat the tops of the girders with a bituminous seal as
protection from moisture that may seep through between the deck panels.
Load distributors are recommended to be attached between and parallel to the girders to control differential deflection of adjacent panels.
Fasteners:
The minimum corrosion protection for fasteners shall be a heavy hot dipped galvanised coating. However, in coastal or in environments where there will be prolonged periods of elevated moisture content (> 18%) it is recommended 316 stainless steel fasteners be used.
It is also recommended that all fasteners be coated in grease before installation.
Camber:
Camber (approximately 1%) can be built into the NiuDeck panels at installation time via differing height girders or packing corbels. Additional camber can also be obtained by shaping the bitumen deck wearing surface.
Page 7 of 24
ECO Modular
The NiuBridge ECO modular bridge system is a robust cost-effective system for all single spans up to 10m. NiuBridge ECO is suitable for installation on almost all substructures, including temporary installations direct on the ground.
Key features:
Single span length up to 10m Compliant to T44 loading Standard single lane width 4200mm Standard double lane width 8400mm Non-standard lengths and widths available on request.
Insert photo of wallaby creek
Take fig 1 from existing manual
07 Delivery 08
Page 9 of 24
Delivery As part of the NiuBridge ECO Module design optional lifting eyes can be installed to facilitate the unloading and installation process.
If a pre-applied deck wearing surface has been specified, the lifting eye points and module jointing plates will be masked with sacrificial plywood that is to be removed at time of installation (Figure 3).
It is the responsibility of the contractor installing NiuBridge to ensure that all lifting is undertaken in accordance with a Safe Work Method Statement that complies with all relevant laws, safety regulations and codes of practices.
Figure 3 – Bolt and Deck Joint masking
Installation NiuBridge system is either installed on an existing timber or concrete substructure, or on a new substructure. The typical installation process is as follows: -
Ensure substructure is sound and suitable to accommodate the NiuBridge modules. Place elastomeric pads (if specified) on headstocks, corbels or abutments. Place and secure NiuBridge modules to the headstocks and abutments. Complete longitudinal deck jointing. Install additional barriers if required. Install (or patch if pre-applied) deck wearing surface.
To ensure correct installation of the product we recommend the following instructions be strictly adhered to:
Design:
Supporting structure needs to be sound prior to installation of NiuBridge NiuBridge needs to be fixed at each girder with a minimum of 1 bolts per end per
girder, however, site specific requirements need to be considered. The minimum bolt size is M20 with M24 recommended for extra longevity with a 100x100x16mm washer.
Ensure NiuBridge modules are evenly supported by the sub-structure.
Corrosion:
The minimum corrosion protection for fasteners shall be a heavy hot dipped galvanised coating. However, in coastal or in environments where there will be prolonged periods of elevated moisture content (> 18%) it is recommended 316 stainless steel fasteners be used.
It is also recommended that all fasteners be coated in grease before installation.
Camber:
Camber can be built into the supporting structure. Additional camber can also be obtained by shaping the bitumen deck wearing surface.
Lifting eye Masking
Deck Joint Masking
/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
Typical Drawings Typical Drawings
2
2
/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
09 Typical Drawings 10 What is HPF Modular?
Page 12 of 24
HPF Modular The NiuBridge HPF modular bridge system is a high performing engineered wood product system suitable for all single spans applications up to 15m. NiuBridge HPF is suitable for installation on a variety of existing substructures, including timber, heritage masonry, steel and concrete. NiuBridge HPF is also ideally suitable for installation on precast spread footing abutment systems as well as the conventional piles and abutments.
Key features:
Single span length up to 15m Compliant to T44 and AS5100 S1600 loading Standard single lane width 4600mm Standard double lane width 8800mm Non-standard lengths and widths available on
request.
11 HPF Modular Installation12
Page 13 of 24
Note 2: Includes 2 coat bitumen chip seal
Table 1: Single Lane Attributes Table
Note 2: Includes 2 coat bitumen chip seal
Table 2: Double Lane Attributes Table
Span (m)
Overall Lane Width Inside
Kerbs (m)
Overall Lane Width
Outside Kerbs (m)
Outer Module
Width (m)
Inner Module
Width (m)
Deck Thickness
(mm)Girder Depth
(mm)
Approximate Outer
Module Weight 2
(tonne)
Approximate Inner Module
Weight 2
(tonne)8 8.4 8.8 2.3 2.1 108 342 4.6 4.210 8.4 8.8 2.3 2.1 108 445 6.4 5.812 8.4 8.8 2.3 2.1 135 555 9.0 8.215 8.4 8.8 2.3 2.1 135 780 13.2 12.1
Span (m)
Overall Lane Width Inside
Kerbs (m)
Overall Lane Width
Outside Kerbs (m)
Module Width (m)
Deck Thickness
(mm)
Girder Depth (mm)
Kerb Width (mm)
Kerb Depth (mm)
Approximate Module Weight2
(tonne)8 4.2 4.6 2.3 108 342 200 216 4.610 4.2 4.6 2.3 108 445 200 216 6.412 4.2 4.6 2.3 135 555 200 216 9.015 4.2 4.6 2.3 135 780 200 216 13.2
Page 14 of 24
Delivery and Lifting The sequencing and timing of delivery needs to be coordinated by the main contractor in consultation with PNGFP. Issues that need to be considered are: -
Site access and timing Traffic control Transportation requirements Crane size and reach As part of the NiuBridge HPF Module design there are M30 holes in the deck for attaching suitably approved M30 lifting eyes to facilitate the unloading and installation process. Alternatively, suitably approved slings and/or chain can be used around the module.
If a pre-applied deck wearing surface has been specified, these lifting holes will be masked with plywood discs (Figure 3).
Figure 3 – Bolt and Deck Joint masking
It is the responsibility of the contractor installing NiuBridge to ensure that all lifting is undertaken in accordance with a Safe Work Method Statement that complies with all relevant laws, safety regulations and codes of practices.
Installation NiuBridge system is either installed on an existing timber or concrete substructure, or on a new substructure. The typical installation process is as follows: -
Ensure substructure is sound and suitable to accommodate the NiuBridge modules. Place elastomeric pads (if specified) on headstocks, corbels or abutments. Place and secure NiuBridge modules to the headstocks and abutments. Complete longitudinal deck jointing. Install and tighten tie down bolts Install additional barriers if required. Install (or patch if pre-applied) deck wearing surface.
To ensure correct installation of the product we recommend the following instructions be strictly adhered to:
Design:
Supporting structure needs to be sound prior to installation of NiuBridge
NiuBridge needs to be fixed at each girder with a minimum of 1 bolts per end per girder, however site-specific details need to be considered. M24 bolts are recommended with a 100x100x16mm washer.
It is recommended that the tie down bolts be located adjacent to each girder on the downstream side.
Ensure NiuBridge modules are evenly supported by the sub-structure.
Lifting Point Masking
Deck Joint Masking
.
13 Typical Drawings14
Page 15 of 24
Corrosion:
The minimum corrosion protection for fasteners shall be a heavy hot dipped galvanised coating. However, in coastal or in environments where there will be prolonged periods of elevated moisture content (> 18%) it is recommended 316 stainless steel fasteners be used.
It is also recommended that all fasteners be coated in grease before installation.
Camber:
Camber can be built into the supporting structure. Additional camber can also be obtained by shaping the bitumen deck wearing surface.
/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
Typical Drawings
/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
15 Typical Drawings (contd) SHPF Modular16
/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
SHPF Modular
The NiuBridge SHPF modular bridge system is a high performing engineered wood product system suitable for all single spans applications up to 24m. NiuBridge SHPF unique design allows the bridge to be shipped in easily transportable sections which are then readily assembled on site. SHPF NiuBridge is suitable for installation on a variety of existing substructures both pile and spread footings, including timber, heritage masonry, steel and concrete.
Key features:
Single span lengths from 15 to 24m Compliant to T44 loading Standard single lane width 4600mm Segmented design allows for easy
transportation and rapid assembly when on site. Light weight
.
Page 19 of 24
Note 3: Excludes bitumen chip seal
Total Span (m)
Approach Section
Span (m)
Centre Section
Span (m)
Overall Lane Width
Outside Kerbs (m)
Overall Lane Width Inside
Kerbs (m)
Deck Thickness
(mm)
Module Depth (mm)
Girder Depth (mm)
Kerb Width (mm)
Kerb Depth (mm)
Approximate Total
Weight2
(tonne)20 5 10 4.2 3.8 135 1389 342 200 216 30.022 5.5 11 4.2 3.8 135 1389 445 200 216 33.024 6 12 4.2 3.8 135 1389 445 200 216 36.0
Span (m) Section LocationModule
Length (m)Module
Width (m)
Module Depth (mm)
Deck Thickness
(mm)
Approximate Module Weight 3
(tonne)20 Approach Outside 5 1.5 1389 135 2.620 Approach Inside 5 1.2 1389 108 2.420 Centre Outside 10 1.5 1389 135 5.220 Centre Outside 10 1.2 1389 135 4.822 Approach Outside 5.5 1.5 1389 135 2.922 Approach Inside 5.5 1.2 1389 108 2.622 Centre Outside 11 1.5 1389 135 5.722 Centre Outside 11 1.2 1389 135 5.324 Approach Outside 6 1.5 1389 135 3.124 Approach Inside 6 1.2 1389 108 2.924 Centre Outside 12 1.5 1389 135 6.224 Centre Outside 12 1.2 1389 135 5.8
17 Typical Drawings18
Page 20 of 24
Typical Drawings
17 SHPF Modular
Table 3: Single lane attributes table
Table 4: Component Module Attributes Table
19
Page 21 of 24
Pre-Ordering
In order to ensure a smooth and efficient installation of any of the NiuBridge systems it is essential to undertake sufficient site planning. It is recommended a site meeting be conducted with representatives from the consulting engineer, installation contractor and PNGFP to discuss constraints, delegate responsibilities and schedule. Table 2 below outlines key tasks to be discussed together with suggested responsibility.
Stage Task Responsibility Order Detail
Confirm details of the NiuBridge product and any options e.g. pre-installed deck wearing surface
Customer
Project Schedule
Project schedule to be agreed on allowing sufficient time for manufacture and shipping.
Customer/PNGFP
Site Preparation
Ensure site is accessible for cranes and delivery vehicles
Customer
Lifting Equipment
Organise suitable lifting equipment to unload delivery vehicles and for installation.
Customer
Delivery Coordinate delivery sequence with site requirements
Customer/PNGFP
Delivery Site traffic control Customer Installation Installation process Customer
Table 2: Key Planning Tasks and Responsibility
Safety
Requirements and regulations must be observed at all times, including transportation, lifting, handling, storage and installation.
Responsibility of contractor to provide Safe Work Method Statements that comply with all relevant laws and regulations.
Must use nominated PPE as detailed in the MSDS statement. All lifting must be done by qualified operators and strictly in accordance with all
relevant health and safety standards. Care must be taken during any lifting operation to prevent any damage e.g. spearing
due to forklift tynes or edge damage due to lifting chains/straps.
Page 22 of 24
Deck Wearing Surface
NiuBridge requires a durable deck wearing surface to be installed to ensure that the designed service life is achieved. In order to maximise the life of the deck wearing surface the entire bridge structure must be tight to minimise movement under load.
The recommended deck wearing surfaces are either a multi-layered aggregate system or asphaltic concrete and the weight of this surface needs to be considered in the design load of the bridge.
Multi-layered aggregate system:
Spray deck, ends and edges with a Cationic Rapid Set Emulsion (CRS) in accordance with the manufacturer’s instructions.
Apply and roll with a non-vibrating roller 14mm chip layer to the surface.
Spray a second coat of emulsion. Apply and roll with a non-vibrating roller a 7mm chip layer
to the surface Repeat layers for the desired thickness and durability. Remove excess loose chip from the final layer.
Asphaltic Concrete:
Spray deck, ends and edges with a Cationic Rapid Set Emulsion (CRS) in accordance with the manufacturer’s instructions.
Apply and roll with a non-vibrating roller a 7mm chip layer to the surface.
Apply a minimum 30mm thick layer of asphaltic concrete. Roll with a non-vibrating roller and allow to cure.
Deck Wearing Surface20Ordering of NiuBridge System
5
21 NiuKerb
Page 23 of 24
NiuKerb
NiuKerb is a prefinished Engineered Wood kerbing system that is ready to be bolted directly to a bridge deck saving significant on site installation time and cost.
The product is available as either a 6m long x 200mm wide x 216mm deep solid section or with 600mm long x 100mm deep drainage sections pre-cut into the kerb (scuppers). Both products are available with either tapered approch as detailed in Figure 5 or a square end.
Figure 5: Kerbing scupper details
PNG Forest Products Ltd.
(as amended www.pefc.org).
The Engineered Wood Products Association of Australasia Ltd. certifies that
PO Box 88, BULOLO 423, Papua New Guinea
operates a Chain of Custody Management system that meets the requirements of the
Mill Number: 916 Expiry Date: 22 Dec 2023
The currency of certification should be verified on the EWPAA or PEFC online certification registers.
Scope of Certification
PEFC ST 2002:2013 Chain of Custody of Forest Based Products
Chain of Custody Approach: Volume Credit
Wooden Furniture Treated PlywoodTreated and Untreated Pine Timber Timber Bridge Components
Rough Sawn Hardwood PolesPlywood Noise Barriers Plywood Cladding
Plywood Overlaid PlywoodDressed Hardwood
Sites covered by this CertificatePNGFP - Bulolo Huxley St, Bulolo, Papua New Guinea:
https://ewp.asn.au/membersPage 1 of 1
The contents of this certificate are valid as of the date of issue. This certificate must not be reproduced except in full. To verify the current list of certifications held by this organisation, visit the web pages linked below.
https://pefc.org/find-certified/certified-certificates/
Last Recertification Date: 22 Dec 2018Issued Date: 19 Dec 2018
Initial Certification Date: 22 Dec 2015
PNG Forest Products Ltd.
EWPAA certification involves regular inspections of the manufacturing process, independent testing of product compliance and periodic assessment of product performance in the marketplace.
Details of the certifications scheme are available at www.ewp.asn.au
The Engineered Wood Products Association of Australasia Ltd. certifies that
PO Box 88, BULOLO 423, Papua New Guineaoperates a quality control system that meets the requirements of the
EWPAA Product Certification Scheme
Mill Number: 916 Issued: 08 Jan 2019
Certified Products
Emission ClassBond
AS/NZS 2269 Plywood Structural
GradeF14 A Bond Super E0
Emission ClassBond
AS/NZS 2270 Plywood Interior
C Bond E0
Emission ClassBond
AS/NZS 2271 Plywood Exterior
A Bond Super E0
Emission ClassBondGrade
AS/NZS 2272 Plywood Marine
Standard A Bond Super E0
Emission ClassBondGrade
AS 6669 Plywood Formwork
F17 A Bond Super E0
Product
Special Products
NuiDeckNuiBridge
https://ewp.asn.au/membersPage 1 of 1
The contents of this certificate are valid as of the date of issue. This certificate must not be reproduced except in full. To verify the current list of certifications held by this organisation, visit the web pages linked below.
www.jas-anz.org/our-directory/certified-organisations
22 Certificates of Certification
4:
23
Before NiuDeck
After NiuDeck
24
OK Tedi Mining Bridge Papua New Guinea
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